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在决定细胞对紫外线DNA损伤的反应时,p53抑制作用超过了DNA聚合酶η缺陷的影响。

p53 suppression overwhelms DNA polymerase eta deficiency in determining the cellular UV DNA damage response.

作者信息

Laposa Rebecca R, Feeney Luzviminda, Crowley Eileen, de Feraudy Sebastien, Cleaver James E

机构信息

UCSF Comprehensive Cancer Center, Auerback Melanoma Laboratory, Room N461, Box 0808, University of California San Francisco, CA 94143-0808, United States.

出版信息

DNA Repair (Amst). 2007 Dec 1;6(12):1794-804. doi: 10.1016/j.dnarep.2007.07.005. Epub 2007 Sep 5.

DOI:10.1016/j.dnarep.2007.07.005
PMID:17822965
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2239317/
Abstract

Xeroderma pigmentosum variant (XP-V) cells lack the damage-specific DNA polymerase eta and have normal excision repair but show defective DNA replication after UV irradiation. Previous studies using cells transformed with SV40 or HPV16 (E6/E7) suggested that the S-phase response to UV damage is altered in XP-V cells with non-functional p53. To investigate the role of p53 directly we targeted p53 in normal and XP-V fibroblasts using short hairpin RNA. The shRNA reduced expression of p53, and the downstream cell cycle effector p21, in control and UV irradiated cells. Cells accumulated in late S phase after UV, but after down-regulation of p53 they accumulated earlier in S. Cells in which p53 was inhibited showed ongoing genomic instability at the replication fork. Cells exhibited high levels of UV induced S-phase gammaH2Ax phosphorylation representative of exposed single strand regions of DNA and foci of Mre11/Rad50/Nbs1 representative of double strand breaks. Cells also showed increased variability of genomic copy numbers after long-term inhibition of p53. Inhibition of p53 expression dominated the DNA damage response. Comparison with earlier results indicates that in virally transformed cells cellular targets other than p53 play important roles in the UV DNA damage response.

摘要

着色性干皮病变异型(XP-V)细胞缺乏损伤特异性DNA聚合酶η,具有正常的切除修复功能,但在紫外线照射后显示出有缺陷的DNA复制。先前使用用SV40或HPV16(E6/E7)转化的细胞进行的研究表明,在p53功能缺失的XP-V细胞中,对紫外线损伤的S期反应发生了改变。为了直接研究p53的作用,我们使用短发夹RNA在正常和XP-V成纤维细胞中靶向p53。在对照细胞和紫外线照射的细胞中,shRNA降低了p53及其下游细胞周期效应物p21的表达。紫外线照射后细胞在S期后期积累,但在p53下调后,它们在S期更早积累。p53受到抑制的细胞在复制叉处表现出持续的基因组不稳定。细胞表现出高水平的紫外线诱导的S期γH2Ax磷酸化,这代表了暴露的DNA单链区域,以及代表双链断裂的Mre11/Rad50/Nbs1焦点。长期抑制p53后,细胞还表现出基因组拷贝数的变异性增加。p53表达的抑制主导了DNA损伤反应。与早期结果的比较表明,在病毒转化的细胞中,除p53外的细胞靶点在紫外线DNA损伤反应中起重要作用。

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Evidence that in xeroderma pigmentosum variant cells, which lack DNA polymerase eta, DNA polymerase iota causes the very high frequency and unique spectrum of UV-induced mutations.有证据表明,在缺乏DNA聚合酶η的着色性干皮病变异细胞中,DNA聚合酶ι会导致紫外线诱导的突变出现非常高的频率和独特的谱型。
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